Sokrates Pantelides
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International collaboration yields breakthrough that could revolutionize computing technologies
Researchers from Vanderbilt University and University of the Chinese Academy of Sciences have made a significant advancement in understanding the correlation of the vibrational patterns of atoms at the level of chemical bonds in conducting materials silicon and graphene. Vibrational spectroscopy of substitutional Si impurities in graphene with different bonding… Read MoreMar. 28, 2023
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Breakthrough measurements/theory of vibrating atoms in nanostructures ushers in new class of technology
Researchers from Vanderbilt University and University of the Chinese Academy of Sciences have made a significant advancement in understanding the correlation of the vibrational patterns of atoms at the level of chemical bonds in conducting materials silicon and graphene. Vibrational spectroscopy of substitutional Si impurities in graphene with different bonding… Read MoreJan. 26, 2022
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Vanderbilt to lead $5 million Air Force center of excellence in radiation effects research on electronics
Researchers from Vanderbilt University and University of the Chinese Academy of Sciences have made a significant advancement in understanding the correlation of the vibrational patterns of atoms at the level of chemical bonds in conducting materials silicon and graphene. Vibrational spectroscopy of substitutional Si impurities in graphene with different bonding… Read MoreOct. 29, 2021
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Experiments into amorphous carbon monolayer lend new evidence to physics debate
Researchers from Vanderbilt University and University of the Chinese Academy of Sciences have made a significant advancement in understanding the correlation of the vibrational patterns of atoms at the level of chemical bonds in conducting materials silicon and graphene. Vibrational spectroscopy of substitutional Si impurities in graphene with different bonding… Read MoreJan. 8, 2020
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A four-way switch promises greater tunability of layered materials
Researchers from Vanderbilt University and University of the Chinese Academy of Sciences have made a significant advancement in understanding the correlation of the vibrational patterns of atoms at the level of chemical bonds in conducting materials silicon and graphene. Vibrational spectroscopy of substitutional Si impurities in graphene with different bonding… Read MoreNov. 19, 2019
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Nanoscale origami: Smallest-ever, atomically precise structures set stage for quantum breakthroughs
Researchers from Vanderbilt University and University of the Chinese Academy of Sciences have made a significant advancement in understanding the correlation of the vibrational patterns of atoms at the level of chemical bonds in conducting materials silicon and graphene. Vibrational spectroscopy of substitutional Si impurities in graphene with different bonding… Read MoreSep. 6, 2019
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Weiss wins Chancellor’s Award for Research; two recognized for 25 years at Vanderbilt
Researchers from Vanderbilt University and University of the Chinese Academy of Sciences have made a significant advancement in understanding the correlation of the vibrational patterns of atoms at the level of chemical bonds in conducting materials silicon and graphene. Vibrational spectroscopy of substitutional Si impurities in graphene with different bonding… Read MoreAug. 23, 2019
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Quantum mechanics work lets oil industry know promise of recovery experiments before they start
Researchers from Vanderbilt University and University of the Chinese Academy of Sciences have made a significant advancement in understanding the correlation of the vibrational patterns of atoms at the level of chemical bonds in conducting materials silicon and graphene. Vibrational spectroscopy of substitutional Si impurities in graphene with different bonding… Read MoreSep. 28, 2018
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Multitasking monolayers lay groundwork for devices that can do two things at once
Researchers from Vanderbilt University and University of the Chinese Academy of Sciences have made a significant advancement in understanding the correlation of the vibrational patterns of atoms at the level of chemical bonds in conducting materials silicon and graphene. Vibrational spectroscopy of substitutional Si impurities in graphene with different bonding… Read MoreJul. 25, 2017
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Pantelides elected electrical engineering association fellow
Researchers from Vanderbilt University and University of the Chinese Academy of Sciences have made a significant advancement in understanding the correlation of the vibrational patterns of atoms at the level of chemical bonds in conducting materials silicon and graphene. Vibrational spectroscopy of substitutional Si impurities in graphene with different bonding… Read MoreDec. 10, 2014